T S Iefimenko, Yu G Fedak, M Z Antonyuk, T K Ternovska
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引用次数: 0
摘要
普通小麦的渐渗杂交仍然是小麦基因组富集抗胁迫基因的最有效途径之一。在此背景下,muticum Amblyopyrum T基因组是小麦改良的一个有希望的基因组。基因组替代双二倍体aurrotica (AABBTT)以普通小麦品种极光的A和B亚基因组和钝尾羊的T亚基因组为材料,具有较高的抗寒性。在小麦中,这一特征与同源组5的染色体有关。通过微卫星对比分析,发现了9个D基因组特异的SSR位点,这些位点产生的扩增子与北极光的DNA谱一致。利用这些位点的引物筛选(Aurora x Aurotica)F5后代(234株),寻找基因组中携带5T染色体或其片段的个体。本研究共检测到24株具有5D/5T二体取代的植物。它们都是5个F4植株的后代,而这5个F4植株又来自2个F2个体。大量植物含有5D/5T重组染色体。重组事件可能发生在F2以后的任何一代。
[MICROSATELLITE ANALYSIS OF HOMOEOLOGOUS CHROMOSOME GROUP 5 OF INTROGRESSIVE WHEAT LINES TRITICUM AESTIVUM/AMBLYOPYRUM MUTICUM].
Introgressive hybridization of common wheat is still one of the most effective way of wheat genome enrichment with resistance genes to stresses. In this context, T genome of Amblyopyrum muticum is a promising one for such wheat improvement. Genome substitution amphidiploid Aurotica (AABBTT) with A and B subgenomes from common wheat cultivar Aurora and with T subgenome from Amblyopyrum muticum is characterized by high level of cold resistance. In wheat, this characteristic associated with chromosomes of the homoeologous group 5. Comparative microsatellite analysis of Aurora and Aurotica identified 9 SSR loci specific to D genome which produced other amplicons with Aurotica DNA spectrum. Primers for these loci were used for screening (Aurora x Aurotica)F5 progeny (234 plants) in purpose to find those individuals, which carry 5T chromosome or its fragments in their genomes. In this study were detected 24 plants with disomic substitutions 5D/5T. All of them were offspring of five F4 plants, which in turn derived from two F2 individuals. A significant number of plants contain recombinant chromosome 5D/5T. The recombination event could occur in any generation since F2.
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